US2624512A - Thermostatic regulating device - Google Patents

Description

Jan. 6, 1953 A. w. RICKENBACH 2,624,512

THERMOPLASTIC REGULATING DEVICE Filed Nov. 1, 1950 2 SHEETSSHEET 1 IN V EN TOR.

A T TOR/Vt Y.

Jan. 6, 1953 A. w. RICKENBACH THERMOPLASTIC REGULATING DEVICE 2 Sl-IEETS-Sl-iEET 2 Filed NOV. 1, 1950 INVENTOR. AUGUST W. RIOKE/VBAGH ATTORNEY.

Patented Jan. 6, 1953 THERMQSTATIC REGULATING DEVICE August W. Rickenbach, Williamsport, Pa., as-

signor to Avco Manufacturing Corporation, Cincinnati, Ohio, a corporation of Delaware Application November 1, 1950, Serial No. 193,403

Claims.

The present invention relates to carburetor air temperature controls and has more particular reference to a thermostatic control for regulating the temperature of the air being supplied to the carburetor of an internal combustion engine.

Since the advent of the internal combustion engine, many devices have been proposed for regulating carburetor air temperature. These devices have been perfected over many years until today carburetion for engines is satisfactory for most normally encountered operating conditions. However, with the evolution of special installations for use in extreme climates, many of the previously used devices no longer produce satisfactory carburetion with the result that the asso ciated engines can not be started or do not operate properly.

There is an extremely exacting application for carburetor air temperature controls on engines which must operate under arctic as well as desert conditions embracing ambient temperatures ranging from minus 65 degrees Fahrenheit to plus 130 degrees Fahrenheit. It has been found in practice that none of the heretofore satisfactory devices are suitable for use over such an extreme range of temperatures; in fact, conventional fuels will not vaporize sufiiciently at minus 65 degrees Fahrenheit to support combustion, thus precluding any operation. As a result, a new temperature regulating device had to be evolved which is disclosed in the present application.

In view of the foregoing it is an object of the present invention to provide a mechanism for regulating the temperature of the air being supplied to an internal combustion engine carburetor.

Another object of the present invention is to provide a thermostatically controlled carburetor air regulating device which is automatic in its operation although simple in construction and economical to manufacture.

A still further object of the present invention is the provision of a thermostatic regulating device of the type disclosed which will regulate the temperature of the air being supplied to the carburetor of an internal combustion engine, so that its temperature can be maintained at a minimum value of 80 degrees to 90 degrees Fahrenheit, thereby preventing carburetor icing and erratic engine operation which is highly undesirable under certain operating conditions.

A particular advantage of the present invention is that its simple construction renders unnecessary any delicate adjustment and assures, con- 2 tinued satisfactory operation over a wide range of operating conditions without adjustments of any sort.

The herein disclosed device comprehends the provision of a. rotatable drum actuated by a bimetallic spiral spring to open selectively cold air and hot air ports formed in a surrounding cylindrical housing, whereby cold and hot air can be mixed as required to maintain the carburetor air temperature within predetermined limits at all times.

Thus another object of the present invention is to provide a thermostatically controlled device for mixing cold and hot air in predetermined portions as required to maintain carburetor air temperature within prescribed limits.

Another object of the present invention is the arrangement of a thermostatic control in series with a filter whereby the temperature-regulated air mixture is filtered by a single filter before being supplied to the carburetor.

The novel features that are considered characteristic of the present invention are set forth in the appended claims; the invention itself, however, both as to its organization and method of operation, together with additional objects and advantages thereof will best be understood from the following description of a specific embodiment when read in conjunction with the accompanying drawings, in which:

Fig. 1 is an elevational view of the thermostatic regulating device connected to an air filter through which air is supplied to the carburetor of an internal combustion engine. Parts of the regulating device are broken away and shown in vertical section to facilitate an understanding: of the invention;

Fig. 2 is an elevational view taken on plane 2-2 of Fig. 1 showing a bi-metallic spiral spring associated with the regulating device;

Fig. 3 is a cross sectional view taken on plane 3-3 of Fig. 1 showing the disposition of air ports of the regulating device when supplying ambient air to the engine carburetor; and

Fig. 4 is a cross sectional view'taken on the same plane as Fig. 3 showing the regulatingdevice positioned to feed hot air to the engine carburetor.

With particular reference to Fig. 1, the present invention comprehends the provision. of a thermostatic regulating device, generally designated I, which is secured to a carburetor air filter 2 through which temperature regulated air flows to an internal combustion engine carburetor (not shown). The device I automatically regulates the carburetor air temperature by mixing predetermined quantities of cold ambient air with predetermined quantities of hot air introduced to the device through a flexible hose 3.

The regulating device comprises a cylindrical body 4 which is rigidly attached, as by Welding, to the side wall of the filter at 5. Body 4 is strengthened by an end cap member 6 which is bolted to the body at I and by a stationary spider 8, secured within the body adjacent the air filter. Cap 6 and spider 8 are formed to define aligned centrally disposed bearings 9 and I for rotatably supporting shaft II which is adjusted in angular position by a bi-metallic spiral spring I2, one end of which is anchored to the end of shaft I I, the other end being anchored to a pin I3 secured to and projecting from spider 8. Secured to shaft II for conjoint rotation are disc I4 and spider I5 to the peripheries of which is secured ashell- I6 formingia'drum' I6a. With particular reference to Figs; 3 and 4 it will be noted that drum IE1; is formed to define cold and .hot air supply ports I! and I8, respectively. These ports cooperate' -with correspondingports I9 and 23 'formed withinbody' l "of the regulating device. The internal"combustionengine' (not shown) induces'aflo'w of air through'filt'er 2 which causes air 'to" flow into the filter through ports I9 and asp'ermittedby the registry therewith of ports I! and I8, respectively. Cold ambient air is drawn .throughport I9 from the surroundings. Hot air isdrawn through port 20 from flexible hose 3which in .turn' is supplied from some warm part of the engine, such as from around the cylinders of an i air 'cooled engine. The mixture of cold and'hot air-is automatically proportioned "by the present device so as to maintain the mixture temperature of the air passing through filter 2 at a minimum value'of 80'degrees to 90 degrees Fahrenheit. An ordinary internal combustion engine will experience no carburetion difficulty when operating under such conditions.

Bi met'allic spring I2 is composed of two contiguous layersof dissimilar metals, the inner layer I211. of which: has a higher thermal coefficient of expansion than the outer layer I21) with the result that the spring tends to unwind and impart counterclockwise rotation to shaft I I (as viewed in Figs 3 and 4), as the temperature of the air around the spring rises. For any given temperature of the spring, a, predetermined position of shaft I I is established.

A study of Figs. 3-and 4'will reveal that ports IT and IBaresopositioned relative to the ports formed inthe-body thatwhen port Hiregisters fully with port 20, port I! is totally out of reg- .istrywith. port. I9 (see Fig.4). Similarly when ports I Land I 9 are aligned,.ports I8 and 20 are completely out of. registry .(see Fig. 3) It is noteworthy that ports I1 and I 8 are so positioned that a partial registry of ports I! and I9 as well as ports I 8 and 20' can occur simultaneously. Thus, three general operational conditons may exist.

1. Ports I8 and 20 in complete alignment so that the airfiowing to filter' 2 is drawn entirely through port 20 from hose 3;

2.. Ports I! and 19 in complete alignment so that air for filter 2 is drawn through port I9 entirely from the surroundings of the control device;'and

3." Partialregistry of ports I1 and I9 as well as ports I 8 and 20 so that the air drawn into filter 521 comprises a mixt'ure' of ambient cold air and -hot'a'ir.

'be'maintained in excess of this value.

It has been found desirable to provide on end cap 6 stationary stop lugs 2| and 22 (see Figs. 3 and 4) between which a movable stop lug 23, secured to disc I4, may move as drum ISa is rotated by the spring. These stop members limit the extreme positions of the drum to those shown in Figs. 3 and 4.

It will be obvious to those versed in the art that the extremes of the regulated temperature which can be maintained by the present control device are limited by the ambient temperature and temperature of the hot air which is available. In view of the fact that ambient temperatures seldom, if ever, exceed 130 degrees Fahrenheit regardless of the climatic conditions, it is obvious that the present control device can maintain the carburetor air at a temperature at or below 130 degrees Fahrenheit at all times. It will also be obvious that the hot air being supplied to the control device must exceed degrees Fahrenheit at all times if the carburetor air is to This latter requirement is easily met during operation of an internal combustion engine where the spent cooling air therefrom usually is considerably in excess of 80 degrees Fahrenheit.

During starting, prior to any operation of the engine, it is necessary to obtain warm air for the control device from some supplemental warm air source such as is often used for preheating an engine before it is started under arctic conditions. The necessity for this supplemental heat source is not a disadvantage of the present invention since any internal combustion engine must be preheated for a considerable period before any operation is possible in extremely cold climates.

It has been found in practice that the device disclosed herein responds rapidly to changes of temperature. Thus, the temperature of the air being supplied to the associated internal combustion engine can be held Within desired limits regardless of the changes occurring in the temperatures of the hot and cold air supplies.

Responsiveness of the present control device to temperature changes is enhanced by the location of the bi-metallic spring i2 directly in the temperature regulated air stream, flowing through spiders 8 and I5 to filter 2. Since the spiral spring is directly in the air stream it is subjected to the mixture temperature at all times.

It has been found desirable to balance drum Ita so that no forces exist to induce rotation of shaft- II regardless of the drums position. In this way rotation of the drum'is entirely under the control of bi-metallic spring i2.

When this device is used under arctic conditions it isdesirable to eliminate all forms of lubrication from bearings 9 and I8 since all ordinary lubricants become solid at the temperatures encountered. By balancing the drum and eliminating lubricant from bearings 9 and I8, satisfactory operation of the controldevice is assured under all operating conditions.

..Having described a preferred embodiment of my invention I claim:

. 1. A thermostatic control device for use in supplying temperature-regulated carburetor air to aninternal combustion engine regardless of climatic-conditions, said device comprising a stationary cylindrical body, a cap member closing one end of said body, a spider disposed within the opposite end of'said body, said body being formed to define .a pair of ports in its side wall, one of said ports-being'in communication with a cold air supply, the other of said ports being in communication with a hot air supply, a drum rotatably and concentrically disposed within said cylindrical body, said drum being formed to define a pair of ports for registry with said first named pots, a thermostatic bi-metallic spring for imparting rotation to said drum whereby for each temperature of said spring a predetermined position of said drum is established with said first and second named ports in predetermined registry for controlling the fiow of predetermined quantities of hot and cold air to the interior of said drum, said spring being subjected to the resulting mixture temperature within said drum, one end of said spring being secured to said spider and the other end being connected to said drum.

2. A thermostatic control device for use in supplying temperature regulated carburetor air to an internal combustion engine regardless of prevailing climatic conditions, said device comprising a stationary hollow cylindrical body, a cap member closing one end of said body, a spider disposed within the open end of said body, said body being formed to define a pair of ports in its side wall, one of said ports being in communication with a cold air supply, the other of said ports being in communication with a hot air supply, a rotatable drum concentrically disposed within said cylindrical body, said drum being formed to define a pair of ports for registry with the first named ports, a transverse shaft coaxially disposed within said cylindrical body and rotatably supported by said cap memher and said spider, said drum being secured to said shaft for conjoint rotation within said body, a thermostatic bi-metallic spring for imparting [rotation to said drum, one end of said spring being anchored to said spider, the other end of said spring being secured to said shaft whereby for each temperature of said spring a predetermined position of said drum is established with the first and second named ports in predetermined registry for controlling the fiow of predetermined quantities of hot and cold air to the interior of said drum.

3. A temperature regulating device for use with a carburetor and an associated air filter through which air flow is induced by an internal combustion engine, said regulating device com-- prising a stationary hollow cylindrical body se-- cured to and projecting from said filter, a cap member secured to the projecting end of said body, the other end of said body being secured to the filter, said body being formed to define ports in its side wall in communication with hot and cold air supplies, a spider fixedly secured in the open end of said body adjacent the filter, a shaft coaxially disposed within said body rotatabl supported by said cap member and said spider. a rotary drum concentrically positioned within said body and secured to said shaft for conjoint rotation therewith, said drum being formed to define ports for registry with the ports of said body. bi-metallic spiral spring disposed within the filter and having its ends secured. one to said shaft and the other to said spider for imparting predetermined rotation to said drum. said spring being subjected to the nfixture temperature of the air flowing through said ports and into the filter 4. A thermostatic control device for use in supplying temperature-regulated carburetor air to an internal combustion engine regardless of prevailing climatic conditions, said device comprising a stationary cylindrical body closed at one end and open at the other end, a stationary support at the open end of said body permitting airflow therethrough, said body being formed to define a pair of ports in its cylindrical side wall, one of said ports being in communication with a cold air supply, the other of said ports being in communication with a hot air supply, a shaft concentrically positioned within said body and supported by said support, a drum concentrically disposed within said body and supported by said shaft, said drum being formed to define a pair of ports for registry with said first named ports, a thermostatic bi-metallic spring for imparting rotation to said drum whereby for each temperature of said spring a predetermined position of said drum is established with said first and second named pairs of ports in predetermined registry for controlling the w of predetermined quantities of hot and cold air to the interior of said drum and through the open end of said body, said spring being subjected to the resulting mixture flowing through said drum, one end of said spring being secured to said shaft and the other end to said support.

5. A thermostatic control device for use in supplying temperature-regulated carburetor air to an internal combustion engine regardless of prevailing climatic conditions, said device comprising a stationary cylindrical body closed at one end and open at the other end, a stationary support at the open end of said body permitting airflow therethrough, said body being formed to define a pair of ports in its cylindrical side wall, one of said ports being in communication with a cold air supply, the other of said ports being in communication with a hot air supply, a shaft concentrically positioned within said body and supported by said support, a drum concentrical- 1y disposed within said body and supported by said shaft, said drum being formed to define a pair of ports for registry with said first named ports, a thermostatic bi-metallic spring for imparting rotation to said drum whereby for each temperature of said spring a predetermined position of said drum is established with said first and second named pairs of ports in predetermined registry for controlling the flow of predetermined quantities of hot and cold air to the interior of said drum and through the open end of said body, said spring being subjected to the resulting mixture flowing through said drum, one end of said spring adjustably positioning said drum and the other end being fixed relative to said body.

AUGUST W. RICKENBACH.

REFERENCES CITED The followin references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,797,113 Whatmough et al. 1- Mar. 11, 1931 1,858,454 Lund May 17, 1932 1,925,686 Chism Sept. 5, 1933 2,225,210 Dillon Dec. 17, 1940 2,473,097 Hamill June 14, 1949

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